Virtual pupil camera in head mounted display

1. A head mounted display (HMD) comprising: a display configured to provide display light to an eyebox area of a user of the HMD; a first optical layer that is at least partially reflective; a second optical layer that is at least partially reflective, wherein the first optical layer is disposed between the display and the second optical layer; and a camera oriented to capture scene images of incoming scene light propagating along a folded optical path that includes propagating through the second optical layer, reflecting off the first optical layer, and reflecting off the second optical layer, the camera disposed in a virtual pupil position of the eyebox area with respect to the incoming scene light.

2. The HMD of claim 1 , wherein the first optical layer is spaced a first distance from the second optical layer, and wherein the eyebox area is spaced a second distance from a center of the display, the second distance being approximately three times more than the first distance.

3. The HMD of claim 1 , wherein the first optical layer includes a reflective polarizer configured to reflect a first polarization orientation and transmit a second polarization orientation that is orthogonal to the first polarization orientation.

4. The HMD of claim 3 further comprising: a quarter-waveplate disposed between the first optical layer and the second optical layer; and a circular polarizer, wherein the second optical layer is disposed between the quarter-waveplate and the circular polarizer.

5. The HMD of claim 4 , wherein the second optical layer reflects a first portion of incident visible light and transmits a remaining portion of the visible light.

6. The HMD of claim 1 , wherein the first optical layer includes an aperture void, and wherein the camera is positioned to receive the incoming scene light through the aperture void in the first optical layer.

7. The HMD of claim 1 , wherein the camera is aligned with an axis running through a middle of the display, and wherein the axis is orthogonal to a pixel plane of the display.

8. The HMD of claim 1 further comprising: processing logic configured to drive hybrid images onto the display, wherein processing logic is configured to generate the hybrid images by augmenting virtual images based at least in part on the scene images of an external environment of the HMD captured by the camera, the processing logic configured to receive the scene images from the camera.

9. The HMD of claim 1 further comprising: a user input configured to generate an input signal when activated by a user of the HMD; and processing logic coupled to receive an input signal from the user input, wherein the processing logic is configured to drive the scene images onto the display when the input signal is received from the user input.

10. The HMD of claim 1 , wherein the incoming scene light propagating along the folded optical path propagates through the second optical layer prior to reflecting off the first optical layer.

11. A device comprising: a display configured to provide display light to an eyebox area; a first optical layer that is at least partially reflective; a second optical layer that is at least partially reflective, wherein the first optical layer is disposed between the display and the second optical layer; and a camera oriented to capture scene images of incoming scene light propagating along a folded optical path that includes reflecting off the first optical layer and reflecting off the second optical layer, the camera disposed in a virtual pupil position of the eyebox area with respect to the incoming scene light, wherein the first optical layer includes a reflective polarizer configured to reflect a first polarization orientation and transmit a second polarization orientation that is orthogonal to the first polarization orientation.

12. A device comprising: a display configured to provide display light to an eyebox area of a user of the HMD; a first optical layer that is at least partially reflective; a second optical layer that is at least partially reflective, wherein the first optical layer is disposed between the display and the second optical layer; and a camera oriented to capture scene images of incoming scene light propagating along a folded optical path that includes reflecting off the first optical layer and reflecting off the second optical layer, the camera disposed in a virtual pupil position of the eyebox area with respect to the incoming scene light, wherein the camera is aligned with an axis running through a middle of the display, and wherein the axis is orthogonal to a pixel plane of the display.